Accurate estimate of the critical exponent $\nu$ for self-avoiding walks via a fast implementation of the pivot algorithm

Nathan Clisby

arxiv: 1002.0494 · v1 · submitted 2010-02-02 · ❄️ cond-mat.stat-mech · math-ph· math.MP· physics.chem-ph

Accurate estimate of the critical exponent ν for self-avoiding walks via a fast implementation of the pivot algorithm

Nathan Clisby This is my paper

classification ❄️ cond-mat.stat-mech math-phmath.MPphysics.chem-ph

keywords walksself-avoidingalgorithmcriticalestimateexponentfastimplementation

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We introduce a fast implementation of the pivot algorithm for self-avoiding walks, which we use to obtain large samples of walks on the cubic lattice of up to $33 \times 10^6$ steps. Consequently the critical exponent $\nu$ for three-dimensional self-avoiding walks is determined to great accuracy; the final estimate is $\nu=0.587597(7)$. The method can be adapted to other models of polymers with short-range interactions, on the lattice or in the continuum.

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Accurate estimate of the critical exponent ν for self-avoiding walks via a fast implementation of the pivot algorithm

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